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Please click <a href="https://2018.igem.org/Team:ICT-Mumbai/Results"><u>here</u></a> for detailed documentation of results. | Please click <a href="https://2018.igem.org/Team:ICT-Mumbai/Results"><u>here</u></a> for detailed documentation of results. | ||
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+ | <li>Nistala, G.J., Wu, K., Rao, C.V. and Bhalerao, K.D., 2010. A modular positive feedback-based gene amplifier. Journal of biological engineering, 4(1), p.4. | ||
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Revision as of 11:27, 16 October 2018
Design
The construct circuit is a positive-feedback amplification circuit where a transcriptional activator activates a promoter leading to transcription of itself and a target gene - thus further promoting formation of itself. This circuit has been shown to work in a robust manner and provide a higher level of gene expression than a circuit without the amplification action. [1] We have added an inducible promoter at the start of the construct to first initiate expression of the transcriptional activator which will initiate the amplification action. This will result in an amplified response of our target gene (phoD) in presence of an inducer - which in our case will be the root exudates of the crops.
Amplification Circuit Design
Description
The designed construct is a positive feedback genetic amplifier which activates when induced by an external chemical moiety (root exudates in this case). PX is that inducible promoter. TA is the transcription activator which acts as inducer to the promoter PTA. Promoter PTA, when induced, starts the transcription of TA along with a reporter gene rfp. As the transcription of TA is continuous, promoter PTA is continuously turned on and the response to the inducer is amplified.
Promoter PX
PX is a inducible promoter which is turned on when activated by an external stimulus. Via RNAseq, we wish to isolate the promoters of the genes which are upregulated in Bacillus subtilis 168 in presence of root exudates of various crops. While the results of RNAseq are awaited, a bacitracin-inducible promoter, PLiaI (Part #BBa_K823001 ) was isolated from the registry and used instead. Experiments were performed to isolate various sugar inducible promoters such as, PMalA (Maltose inducible), PXylA (Xylose inducible), PMtlA (Mannitol inducible), from the genomic DNA of B. subtilis 168. Constitutive promoters for B. subtilis were isolated from the registry and used instead of inducible promoters to check validity of the construct. For detailed results, see results page.
Transcription Activator (TA)
The transcription activator is the backbone of the construct as it activates the promoter which in turn starts the transcription of the transcription activator itself. In order to construct the positive feedback amplifier, we required a transcription activator which did not interfere with native gene regulation in either B. subtilis or E. coli and acted as an inducer to another promoter as well.
Two such transcription activators were chosen from iGEM 2018 Distribution Kit.
- Pag activator from phage PSP3 (Part #BBa_I746351)
- Ogr activator from phage P2 (Part #BBa_I746350)
For detailed results, see results page.
Promoter induced by transcription activator (PTA)
PTA is the promoter which, when induced by the transcription activator, drives the transcription of the output reporter gene along with transcription activator itself. The promoters which could be activated by Pag or Ogr activators were required for the construct. Two such promoters were chosen from iGEM 2018 Distribution Kit:
- Promoter PF from phage P2 (Part #BBa_I746360)
- Promoter PO from phage P2 (Part #BBa_I746361)
As both of these are non-native to the chassis organism, the interference with native gene regulation is not expected.
Reporter Gene
The positive feedback circuits leads to the amplification of response to inducers. For the quantification of this response, the reporter gene rfp was selected as the output for its ease in characterization using measurement of fluorescence and easy availability in iGEM 2018 Distribution Kit.
Please click here for detailed documentation of results.
References
- Nistala, G.J., Wu, K., Rao, C.V. and Bhalerao, K.D., 2010. A modular positive feedback-based gene amplifier. Journal of biological engineering, 4(1), p.4.